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Posted: Dec 05, 2012

Smartphones become mini medical labs

(Nanowerk News) "This method makes heart rate research more inexpensive, portable and straightforward," said James Heathers, the PhD student from the University's School of Psychology who came up with the idea.

Data on tiny fluctuations in our heart rate provides critical information on the state of our nervous system, and is essential for a range of psychological research including on anger, anxiety, stress and self-control. It is also used to monitor people's health after operations and has wide applications in sports science.

The Smartphone Pulse Rate Variability system turns a smartphone into a mobile medical lab. The green sensor goes over the patient's finger.

At the moment heart rate variability (HRV) research is done in a university laboratory with a group of study participants. Electrodes are attached to their chests to measure HRV and the data is recorded, one person at a time, using a laboratory computer.

"The idea struck me because I'm by nature impatient and my area is psychophysiology - which is all about the relationship between physiological and psychological states. As part of that, I spend a lot of my time thinking about designing better systems to get the data I need - but faster."

"In a nutshell, I realised the problem was how to get this very useful data more quickly and cheaply. By providing people with a sensor and then using their smartphone to process the data we are no longer tied down to booking appointments in a university laboratory, and can record dozens of separate data streams at the same time.

"The sensor, placed on a finger instead of using electrodes on the chest, is so small we can mail it to study participants."

To make his idea a reality Heathers collaborated with Simon Wegerif, a biomedical engineer.

Wegerif's company, HRV Fit Ltd, already had an HRV phone app - iThlete - widely used by professional sports teams and athletes, for whom heart rate variability is an important measurement of their performance and recovery.

The challenge was to adapt a similar app into a tool that can collect and provide HRV data in a way that is useful to researchers.

"We have run tests of our sensor linked to a smartphone and the software is working very well. I expect it to be up and running - and available for free - in the next few months," said Heathers.

The risk of contamination of results being collected outside the laboratory can be addressed by accepted quality controls such as checking consistency of data.

Heathers plans to use the HRV data to expand theories on the day-to-day fluctuations of the nervous system, and to collect data from groups who are traditionally hard to access.

"This new device will be a huge help in my own research but also has fantastic potential for the research area in general, and I want everyone to have access to it to pursue their own work."

Heathers has just presented his concept at the Australasian Society for Psychophysiology conference.